Comparison of void strengthening in fcc and bcc metals: Large-scale atomic-level modelling

Yu.N. Osetsky; D.J. Bacon

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Comparison of void strengthening in fcc and bcc metals: Large-scale atomic-level modelling

机译：fcc和bcc金属中空隙增强的比较：大规模原子级建模

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Strengthening due to voids can be a significant radiation effect in metals. Treatment of this by elasticity theory of dislocations is difficult when atomic structure of the obstacle and dislocation is influential. In this paper, we report results of large-scale atomic-level modelling of edge dislocation-void interaction in fcc (copper) and bcc (iron) metals. Voids of up to 5 nm diameter were studied over the temperature range from 0 to 600 K. We demonstrate that atomistic modelling is able to reveal important effects, which are beyond the continuum approach. Some arise from features of the dislocation core and crystal structure, others involve dislocation climb and temperature effects.

机译：由于空隙而引起的强化可能是金属中的显着辐射效应。当障碍物和位错的原子结构有影响时，用位错弹性理论很难解决这一问题。在本文中，我们报告了fcc（铜）和bcc（铁）金属中边缘位错-空隙相互作用的大规模原子级建模结果。在0至600 K的温度范围内研究了最大直径为5 nm的空洞。我们证明了原子建模能够揭示重要的影响，这超出了连续方法。一些起因于位错核和晶体结构的特征，另一些涉及位错爬升和温度效应。

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来源
《Materials Science and Engineering. A, Structural Materials》 |2005年第7期|p.374-377|共4页
作者
Yu.N. Osetsky; D.J. Bacon;
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作者单位

Oak Ridge National Laboratory, Metal and Ceremics, P.O. Box 2008, Oak Ridge, TN 37831-6138, USA;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
molecular dynamics; voids; dislocation-obstacle interactions; yield stress; Cu; Fe;

机译：分子动力学;空洞;位错-障碍相互作用;屈服应力;Cu;Fe;

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1. Atomic-scale mechanisms of void hardening in bcc and fcc metals [J] . Yu.N. Osetskya* D.J. Baconb Philosophical Magazine . 2010,第7a8期

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2. Atomic-scale mechanisms of void hardening in bcc and fcc metals [J] . Osetsky Y.N., Bacon D.J. Philosophical magazine: structure and properties of condensed matter . 2010,第7a8期

机译：bcc和fcc金属中空洞硬化的原子尺度机理
3. APS -Annual Meeting of the APS Four Corners Section- Event - An EAM Model Comparison of the Alkali Metals in BCC, FCC, and HCP Lattice Structures [J] . Jake Christensen, Marcus Jackman, Mark Riffe Bulletin of the American Physical Society . 2017,第17期

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4. Void Nucleation in fcc and bcc Metals: a Comparison of Neutron Irradiated Copper and Iron [C] . Bachu N. Singh, Morten Eldrup International conference on positron annihilation . 2001

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8. Molecular Dynamics Study of Void Growth and Dislocations in Dynamic Fracture of FCC and BCC Metals [R] . Seppala, E. T., Belak, J., Rudd, R. E. 2003

机译：FCC和BCC金属动态断裂中空洞生长和位错的分子动力学研究

Comparison of void strengthening in fcc and bcc metals: Large-scale atomic-level modelling

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